01027nam a2200241 i 4500991003489119707536180406s2009 it b 000 0 ita d9788896520017b14340884-39ule_instDip. di Studi Umanisticiita471.1Brancato, Nicolò Giuseppe429626Repertorium delle trasmissioni del gentilizio nel mondo romano :sulla base della documentazione epigrafica.1,Provinciae /Nicolò Giuseppe BrancatoRoma :Artecom,2009398 p. ;24 cm Contiene riferimenti bibliografici OnomasticaRoma anticaFonti epigrafiche.b1434088406-04-1806-04-18991003489119707536LE007 471 BRA 01.0112007000287224le007gE80.00-l- 00000.i1584249606-04-18Repertorium delle trasmissioni del gentilizio nel mondo romano1540028UNISALENTOle00706-04-18ma -itait 0004143nam 2200889z- 450 991056648590332120220506(CKB)5680000000037520(oapen)https://directory.doabooks.org/handle/20.500.12854/80978(oapen)doab80978(EXLCZ)99568000000003752020202205d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierSense and RespondIndustrial Applications of Smart Sensors in Cyber-Physical SystemsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (168 p.)3-0365-3814-3 3-0365-3813-5 Over the past century, the manufacturing industry has undergone a number of paradigm shifts: from the Ford assembly line (1900s) and its focus on efficiency to the Toyota production system (1960s) and its focus on effectiveness and JIDOKA; from flexible manufacturing (1980s) to reconfigurable manufacturing (1990s) (both following the trend of mass customization); and from agent-based manufacturing (2000s) to cloud manufacturing (2010s) (both deploying the value stream complexity into the material and information flow, respectively). The next natural evolutionary step is to provide value by creating industrial cyber-physical assets with human-like intelligence. This will only be possible by further integrating strategic smart sensor technology into the manufacturing cyber-physical value creating processes in which industrial equipment is monitored and controlled for analyzing compression, temperature, moisture, vibrations, and performance. For instance, in the new wave of the 'Industrial Internet of Things' (IIoT), smart sensors will enable the development of new applications by interconnecting software, machines, and humans throughout the manufacturing process, thus enabling suppliers and manufacturers to rapidly respond to changing standards. This reprint of "Sense and Respond" aims to cover recent developments in the field of industrial applications, especially smart sensor technologies that increase the productivity, quality, reliability, and safety of industrial cyber-physical value-creating processes.Sense and Respond History of engineering & technologybicsscTechnology: general issuesbicsscapplicationapproachesartificial visionasynchronousconceptual frameworkcramer rao lower boundCramér-Rao lower bounddatadeep learningEEG sensorsgenetic algorithmsgeometric deep learningheteroscedasticityhyperboloidsIIoTindoor air qualityindustrial optical quality inspectionindustry 4.0Industry 4.0IOTA tangleLCAlean managementlocalizationlong-term monitoring benefitslow costLPSmanufacturing systemsmulti-objective optimizationnode distributionoccupational safety and healthproblem-solvingproject engineeringSDG 11SDG 9sensor failuresensor networkssensorssoft sensorsTDOAtoolswireless sensor networksHistory of engineering & technologyTechnology: general issuesVillalba-Diez Javieredt1308061Ordieres Meré JoaquinedtVillalba-Diez JavierothOrdieres Meré JoaquinothBOOK9910566485903321Sense and Respond3029090UNINA